Introduction to the calculus of variations
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Learn the calculus of variations in this free course. Understand functionals and their applications. Solve differential equations for stationary paths.
This free course concerns the calculus of variations. Section 1 introduces some key ingredients by solving a seemingly simple problem – finding the shortest distance between two points in a plane. The section also introduces the notions of a functional and of a stationary path. Section 2 describes basic problems that can be formulated in terms of functionals. Section 3 looks at partial and total derivatives. Section 4 contains a derivation of the Euler-Lagrange equation. In Section 5 the Euler-Lagrange equation is used to solve some of the earlier problems, as well as one arising from a new topic, Fermat’s principle.
Course learning outcomes
After studying this course, you should be able to:
Understand what functionals are, and have some appreciation of their applications
Apply the formula that determines stationary paths of a functional to deduce the differential equations for stationary paths in simple cases
Use the Euler-Lagrange equation or its first integral to find differential equations for stationary paths
Solve differential equations for stationary paths, subject to boundary conditions, in straightforward cases.
